Phosphazene derivatives and use of same as stabilizers for oils and greases based on perfluoropolyethers

ABSTRACT

New phosphazene derivatives, fully substituted by aromatic groups and perfluoropolyethereal chains, are utilized as stabilizers for oils and greases based on perfluoropolyethers. Such derivatives inhibit the degradation process affecting the perfluoropolyethereal chains when these are subjected to high temperatures in an oxidizing atmosphere and in the presence of metals, such as for example aluminum, titanium, vanadium and their alloys, or steels.

The present invention relates to new phosphazene derivatives and to the use of same as stabilizers for oils and greases based on perfluoropolyethers.

It is known to use fluid perfluoropolyethers as lubricating oils characterized by high performances under extremely severe temperature and load conditions and endowed with an excellent resistance to atmospheric agents and chemical agents in general, as well as to high temperatures. Perfluoropolyether-based greases prepared by addition of a proper thickening agent to the perfluoropolyethereal fluid are known too (see for example Italian patent IT 963,579 or patent application EP 95,825).

A drawback connected with the use of perfluoropolyethers as lubricants is due to the degradation process which the perfluoropolyethereal chains undergo when they are subjected to high temperatures (generally starting from 200°-300° C.) in an oxidizing atmosphere and in the presence of metals, such as e.g. aluminium, titanium, vanadium or their alloys, or steels. Such process causes a decay of the lubricating properties, besides a progressive corrosion of the same metals.

In order to obviate the above said drawback it is known to add little amounts of stabilizing additives to the oils or greases based on perfluoropolyethers. For example, U.S. Pat. No. 4,454,349 describes the use, as stabilizers, of arylphosphines of general formula: ##STR1## where R_(f) RO_(f) is a perfluoropolyethereal group. Such products are obtainable only through an utmostly complex multistep process, which is fully unsuited to an industrial-scale application. In fact, such process comprises, among the various steps, the fluorination of the substrate with SF₄ and HF, this being a reaction which raises a lot of problems concerning the plant engineering (low reaction rate, high temperatures and pressures, dangerousness of the reagents, difficult separation of the final products, etc.).

Further arylphosphinic products suitable for being utilized as stabilizers for oils and greases based on perfluoropolyethers are the ones described in U.S. Pat. No. 4,681,693. Such products have a structure analogous with the one of the arylphosphines described in the above-cited U.S. Pat. No. 4,454,349, in which however the perfluoropolyethereal chains are linked to the aromatic ring by means of non-fluorinated groups of various nature. This structural modification permits to simplify the preparation process (in particular, the above said fluorination reaction with SF₄ and HF is no longer required), what, however, does not reduce the effectiveness of such products as stabilizers. In spite of this considerable simplification, an industrial-scale production of arylolefins is still complicate and expensive, in consideration of the fact that several intermediate steps are required before the final product can be obtained.

Phosphazenes are products well known in the art. They are characterized by the presence of the ##STR2## group, which is the basic unit for the formation of both cyclic and linear structures.

For example, U.S. Pat. Nos. 5,015,405 and 5,099,055 described cyclic phosphazene derivatives of formula: ##STR3## where n ranges from 3 to 7, while substituents R are fluorinated phenoxy groups or 3-perfluoroalkyl-phenoxy groups, on condition that the ratio of phenoxy groups to 3-perfluoroalkyl-phenoxy groups ranges from 1:5 to 1:1.

Such phosphazene derivatives are per se utilizable as lubricants for high temperatures, or as additives for other lubricants. In particular it is to be pointed out the possibility of utilizing these products as antiwear additives for conventional oils, such as polyglycols, polyphenylethers and polyol esters (see also the article by B. S. Nader, K. K. Kar, T. A. Morgan, C. E. Powloski and W. L. Dilling, published in "Tribology Transactions", 35, 37 (1992)).

The Applicant has now found a new class of phosphazene derivatives, which are endowed with excellent stabilizing properties for oils and greases based on perfluoropolyethers and are preparable according to a relatively economic process, which can be easily practised also on an industrial scale.

Thus, a first object of the present invention are the phosphazene derivatives of cyclic or linear structure, having formula: ##STR4## where: n is 0 in the case of a cyclic structure, n is 1 in the case of a linear structure;

m is an integer from 3 to 7;

groups A, like or different from one another, are selected from:

(i) R--Q--, in which Q is a divalent group selected from:

--O--, --S--, --NR₁ -- (in which R₁ is hydrogen or a C₁ -C₄ alkyl), and --NH--NH--; R is a C₆ -C₁₂ aryl group, preferably a phenyl, optionally substituted by one or more, preferably 1 or 2 groups selected from:

C₁ -C₄ alkyls, --OR₂, --NR₃ R₄, --NO₂, --F and --Cl, where R₂, R₃ and R₄ are hydrogen or C₁ -C₄ alkyls;

(ii) R_(f) --CH₂ O(CH₂ CH₂ O)_(s) --, wherein: s=0, 1 or 2; R_(f) is a perfluoropolyethereal chain having a molecular weight ranging from 400 to 10,000, preferably from 400 to 4,000, and composed of repeating units selected from:

(a) ##STR5## and (CFXO), where X is --F or --CF₃ ; (b) (CF₂ CF₂ O) and (CF₂ O);

(c) ##STR6## (CF₂ CF₂ O) and (CFXO), where X is --F or --CF₃ ; (d) ##STR7## (e) CYZ--CF₂ CF₂ O), where Y and Z, like or different from each other, are F, Cl or H;

(f) (CF₂ CF₂ O);

the various repeating units being statistically distributed along the chain;

with the proviso that at least a group of type (i) and at least a group of type (ii) are present in the same molecule; groups R--Q-- being also capable of forming, if linked to the same P atom, a cyclic structure of ##STR8##

A further object of the present invention are the lubricating compositions comprising:

(a) an oil and a grease based on perfluoropolyethers;

(b) from 0.05 to 3% by weight, preferably from 0.5 to 1% by weight, of a phosphazene derivative of formula (I).

The phosphazene derivatives forming the object of the present invention are in the form of viscous, transparent and colorless fluids, which are fully soluble and easily solubilizable, at the above indicated concentrations, in the perfluoropolyether-based lubricants, and exhibit an excellent thermal stability also at temperatures higher than 300° C.

Among the phosphazene derivatives of formula (I), the preferred ones are those exhibiting a cyclic structure (n=0), having a molar ratio between R_(f) --CH₂ O(CH₂ CH₂ O)_(s) -- groups and R--Q-- groups ranging from about 0.2 to about 1.8, preferably from about 0.5 to about 1. Within such subclass, the ones in which m is 3 or 4 are particularly preferred.

The perfluoropolyethereal chains R_(f) can be selected in particular from the following classes:

(a) ##STR9## where: T is a (per)fluoroalkyl group selected from:

--CF₃, --C₂ F₅, --C₃ F₇, --CF₂ Cl, --C₂ F₄ Cl, --C₃ F₆ Cl; X is --F or --CF₃ ;

Z is --F, --Cl or --CF₃ ; m and n are numbers such that the n/m ratio ranges from 0.01 to 0.5 and the molecular weight is in the above-indicated range;

(b)

    T.sup.I --O--(CF.sub.2 CF.sub.2 O).sub.p (CF.sub.2 O).sub.q --CFZ.sup.1 --(III)

where:

T^(I) is a (per)fluoroalkyl group selected from:

--CF₃, --C₂ F₅, --CF₂ Cl, --C₂ F₄ Cl; Z^(I) is --F or --Cl; p and q are numbers such that the q/p ratio ranges from 0.5 to 2 and the molecular weight is in the above indicated range;

(c) ##STR10## where: T^(II) is a (per)fluoroalkyl group selected from:

--CF₃, --C₂ F₅, --C₃ F₇, --CF₂ Cl, --C₂ F₄ Cl, --C₃ F₆ Cl; X^(II) is --F or --CF₃ ; Z^(II) is --F, --Cl or --CF₃ ; s and t are numbers such that r+s ranges from 1 to 50, the t/(r+s) ratio ranges from 0.01 to 0.05 and the molecular weight is in the above indicated range;

(d) ##STR11## where: T^(III) is --C₂ F₅ or --C₃ F₇ ; u is a number such that the molecular weight is in the above indicated range;

(e)

    T.sup.IV --O--(CYZ--CF.sub.2 CF.sub.2 O).sub.v --CYZ--CF.sub.2 --(VI)

where:

Y and Z, like or different from each other, are F, Cl or H; T^(IV) is --CF₃, --C₂ F₅ or --C₃ F₇ ; v is a number such that the molecular weight is in the above indicated range;

(f)

    T.sup.V --O--(CF.sub.2 CF.sub.2 O).sub.w --CF.sub.2 --     (VII)

where:

T^(V) is --CF₃ or --C₂ F₅ ; w is a number such that the molecular weight is in the above indicated range.

The hydroxy-terminated perfluoropolyethers R_(f) --CH₂ O(CH₂ CH₂ O)_(s) H are product known in the art. They are preparable by reduction of the --COF end groups contained in the starting perfluoropolyethers, according to what is described for example in U.S. Pat. Nos. 3,847,978, 3,810,874 and 4,814,372. The starting perfluoropolyethers containing --COF end groups are described, for example, in patents GB 1,104,482 (class (a)), U.S. Pat. No. 3,715,378 (class (b)), U.S. Pat. No. 3,242,218 (class (c)), U.S. Pat. No. 3,242,218 (class (d)), EP 148,482 (class (e)), U.S. Pat. No. 4,523,039 (class (f)), or also in patent application EP 340,740.

The phosphazene derivatives of the present invention are preparable by reacting a perchlorophosphazene of formula [Cl₄ P]_(n) --(N═PCl₂ --)_(m) --(Cl)_(n) with the products R--Q--H and R_(f) --CH₂ O(CH₂ CH₂ O)_(s) H previously treated with a base.

According to a preferred embodiment, the aromatic compound of formula R--Q--H is dissolved in a proper organic solvent, such as diethyl ether or glyme, and is reacted with a base, such as e.g. an alkaline metal iodide (for example NaH or KH), an alkaline metal (for example Na or K), an alkali-metal fluoride (for example KF or CsF), an alkali-metal hydroxide (for example NaOH or KOH), a carbonate or bicarbonate, or an amine (for example a tertiary amine). To the product so obtained, a perchlorophosphazene of formula [Cl₄ P]_(n) --(N═PCl₂ --)_(m) --(Cl)_(n) is added in such amounts that the molar ratio of aromatic compound to perchlorophosphazene ranges from 2:1 to 5:1, preferably from 3:1 to 4:1. The reaction temperature generally ranges from the room temperature to the boiling temperature of the utilized solvent, with reaction times which can vary from 1 hour to 10 hours. The resulting product is then reacted with a hydroxy-terminated perfluoropolyether of formula R_(f) --CH₂ O(CH₂ CH₂ O)_(s) H, converted into alcoholate by reaction with one of the bases described above for the aromatic compounds R--Q--H. The molar ratio of perfluoropolyethereal compound to perchlorophosphazene generally ranges from 2:1 to 5:1, preferably from 3:1 to 4:1. The reaction conditions are the same as described above for the reaction with the R--Q--H compounds.

The step sequence is not determinant, wherefore it is also possible to react with perchlorophosphazene first the hydroxy-terminated perfluoropolyether and then the aromatic compound R--Q--H.

As an alternative, the reaction can be conducted in one step by reacting perchlorophosphazene with products R--Q--H and R_(f) --CH₂ O(CH₂ CH₂ O)_(s) H in admixture with each other and previously treated with a base.

The perfluoropolyethers having neutral end groups, utilizable for the formulation of oils and greases are available on the market under the trade-names Fomblin® (Ausimont), Krytox® (DuPont), Demnum® (Daikin), etc. As an example, the following classes of perfluoropolyethers can be cited:

(1) ##STR12## where X is --F or --CF₃ ; A and A', like or different from each other, are --CF₃, --C₂ F₅ or C₃ F₇ ; m and n are numbers such that the viscosity of the product ranges from 10 to 4000 cSt, the various units being statistically distributed along the chain. These products can be obtained by photooxidation reaction of hexafluoropropene, according to what is described in GB patent 1,104,482, and by successive conversion of the end groups into neutral groups conforming to the process described in GB patent 1,226,566.

(2) ##STR13## where B is --C₂ F₅ or --C₃ F₇, while m is such a number that the viscosity is in the above indicated range. These products can be prepared by ionic oligomerization of the hexafluoropropene epoxide and successive treatment with fluorine according to what is described in U.S. Pat. No. 3,242,218.

(3) ##STR14## where m is such a number that the viscosity is in the above indicated range. These products are obtained by ionic telomerization of the hexafluoropropene epoxide and by successive photochemical dimerization, according to what is described in U.S. Pat. No. 3,214,478.

(4) ##STR15## where X is --F or --CF₃ ; A and A', like or different from each other, are --CF₃, --C₂ F₅ or --C₃ F₇ ; m, n and q are numbers such that the viscosity is in the above indicated range. These products are obtainable by photooxidation of mixtures of C₃ F₆ and C₂ F₄ and by subsequent treatment with fluorine according to the process described in U.S. Pat. No. 3,665,041.

(5) AO--(C₂ F₄ O)_(p) (CF₂ O)_(q) --A' where A and A', like or different from each other, are --CF₃ or --C₂ F₅ ; p and q are numbers such that the viscosity is in the above indicated range. These products are preparable by photochemical oxidation of C₂ F₄ according to U.S. Pat. No. 3,715,378 and by successive treatment with fluorine according to U.S. Pat. No. 3,665,041.

(6) AO--(CF₂ CF₂ CF₂ O)_(m) --A' where A and A', like or different from each other, are --CF₃, --C₂ F₅ or --C₃ F₇ ; m is such a number that the viscosity of the product is in the above indicated range. These products are obtained according to what is described in patent application EP 148,482.

(7) AO--(CF₂ CF₂ O)_(r) --A' where A and A', like or different from each other, are --CF₃ or --C₂ F₅ ; r is such a number that the viscosity of the product is in the above indicated range. These products are obtained according to what is described in U.S. Pat. No. 4,523,039.

(8) ##STR16## where R'_(f) is a perfluoroalkyl, n is a number ≧8, R_(f) is --F or a perfluoroalkyl. These products are described in patent application WO-87/00538.

A grease based on perfluoropolyethers is typically composed for 15-40% by weight of polytetrafluoroethylene, acting as a thickening agent, and for 60-85% by weight of a liquid perfluoropolyether, besides minor amounts of other products, such as perfluoroalkyl surfactants or polyoxyperfluoroalkyl surfactants, or other additives known in the art, such as stabilizers, anticorrosive agents, anti-wear agents etc. Additives of this type are usually contained also oils based on perfluoropolyethers.

The phosphazene derivatives of the present invention, besides exerting a stabilizing action, are also effective as anti-wear additives for oils and greases based on perfluoropolyethers.

The present invention is hereinafter described more in detail in the following examples, which are given merely to illustrate but not to limit the scope of the invention.

EXAMPLE 1

A three-neck flask of 1 liter volume was equipped with a condenser, a dropping funnel, inlet and outlet devices for nitrogen and a magnetic stirrer. All the reaction steps were conducted in an inert nitrogen atmosphere.

A solution of phenol (2.7 g, 28.7 millimoles) in anhydrous diethylether (25 ml) was dropwise added to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). To the resulting mixture, heated at reflux for 1 hour, a solution of hexachlorocyclophosphazene (NPCl₂)₃ (2.8 g, 8 mmoles) in anhydrous diethylether (30 ml) was added once in a time. The whole was then heated at reflux for 1 hour.

A solution in anhydrous diethylether (30 ml) of hydroxy-terminated Fomblin® (26.5 g, 29.4 mmoles), having formula R_(f) CH₂ OH, where R_(f) is corresponding to formula (II), having an equivalent weight equal to 900 and a ratio of units C₃ to units C₁ equal to 36.8, was added dropwise to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). The resulting mixture was heated at reflux for 1 hour. Then, the solution obtained from the preceding reaction was added in a unique portion. After a 2-hour heating at reflux, the reaction mixture was treated with 200 ml of demineralized water and then was subjected to extraction with A113 (CCl₂ FCClF₂). After removal of the solvent by evaporation at reduced pressure, a viscous liquid was obtained, which was purified by distilling-off the unreacted hydroxy-terminated Fomblin® Y (at 120° C. and 10⁻³ millibar).

The liquid product so purified was distilled at reduced pressure. Two fractions were obtained: the first fraction (6.4 g; b.p. 170°-180° C. at 10₋₃ mbar) had an average molar composition corresponding to formula [(N═P)(--R--Q)(--OCH₂ R_(f))]₃ (product 1a); the second fraction (8.7 g; b.p. 180°-200° C. at 10⁻³ mbar) had an average molar composition corresponding to formula [(N═P)(--R--Q)₀.83 (--OCH₂ R_(f))₁.16 ]₃ (product 1b).

The elemental analysis of the products so obtained revealed the absence of chlorine, what confirmed that the substitution reaction had been completed. The average composition was determined by ¹ H NMR analysis.

EXAMPLE 2

Operating under the same conditions described in example 1, a solution of 3-nitrophenol (3.96 g, 28.5 mmoles) in anhydrous diethylether (25 ml) was added dropwise to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). The resulting mixture was heated at reflux for 1 hour. Then, a solution of (NPCl₂)₃ (2.8 g, 8 mmoles) in anhydrous diethylether (30 ml) was added in a unique portion and the whole was heated at reflux for 12 hours.

A solution of the same hydroxy-terminated Fomblin® Y utilized in example 1 (26.3 g, 28.9 mmoles) in anhydrous diethylether (30 ml) was added dropwise to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). The resulting mixture was heated at reflux for 1 hour. The solution obtained from the preceding reaction was then added in a unique portion. After a 2-hour heating at reflux, 200 ml of demineralized water were added. Then, an extraction with A113 (CCl₂ FCClF₂). After removal of the solvents by evaporation at reduced pressure, a viscous liquid was obtained, which was purified by distilling-off the unreacted hydroxy-terminated Fomblin® Y (at 120° C. and at 10⁻³ mbar) and then by causing the product to pass on a silica gel column, utilizing A113 as an eluent. Obtained were 15 g (conversion: 52%) of a viscous, transparent and colorless liquid, which was identified, through elemental analysis, ¹ H-NMR analysis and ³¹ P-NMR analysis, as a mixture of substitution products corresponding to the average formula [(N═P)(--R--Q)(--OCH₂ R_(f))]₃ (product 2).

EXAMPLE 3

Operating under the same conditions as described in example 1, a solution of 4-methoxyphenol (3.4 g, 28 mmoles) in anhydrous diethylether (25 ml) was added dropwise to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). The resulting mixture was heated at reflux for 1 hour. Then, a solution of [NPCl₂ ]₃ (3.0 g, 8.6 mmoles) in anhydrous diethylether was added in a unique portion, and the whole was heated at reflux for 12 hours.

A solution of the same hydroxy-terminated Fomblin® Y utilized in example 1 (27.0 g, 29.8 mmoles) in anhydrous diethylether (25 ml) was added dropwise to a suspension of NaH (0.6 g, 25.8 mmoles) in anhydrous diethylether (50 ml). The resulting mixture was heated at reflux for 1 hour. Then, the solution obtained from the preceding reaction was added in a unique portion. After a 2-hour heating at reflux, 200 ml of demineralized water were added. An extraction with A113 (CCl₂ FCClF₂) was then effected. After removal of the solvents by evaporation at reduced pressure, a viscous liquid was obtained, which was purified by distilling-off the unreacted hydroxy-terminated Fomblin® Y (at 120° C. and at 10⁻³ mbar) and by causing the product to pass on a silica gel column, using A113 as an eluent. Obtained were 13 g (conversion: 52%) of a viscous, transparent and colorless liquid, which was identified, through elemental analysis, ¹ H-NMR and ³¹ P-NMR analyses, as a mixture of substitution products corresponding to average formula [(N═P)(--R--Q--)(--OCH₂ R_(f))]₃ (product 3).

EXAMPLE 4

A set of tests was conducted in order to check the stability to thermo-oxidation, in the presence of metals, of lubricating compositions containing the phosphazene derivatives prepared in the preceding examples.

Into an apparatus consisting of a glass test-tube equipped with a gas inlet pipe, a vent pipe and a housing for a small disc made of an alloy of Ti, V (4%), Al (6%), there were introduced 50 g of Fomblin® Z 25, corresponding to formula CF₃ O--(C₂ F₄ O)_(p) (CF₂ O)_(q) --CF₃ and having a kinematic viscosity equal to 25 cSt at 20° C., additioned with the phosphazene derivative in the amounts indicated in Table I. The test tube was heated to a temperature of 316° C. in an aluminium furnace. The air, after dehumidification and purification, was made to bubble into the perfluoropolyethereal fluid for 72 hours, at a flowrate of 1 liter/hour.

For comparative purposes, also a test on stabilizer-free perfluoropolyether was conducted. The obtained data are reported in Table I. The stabilizer effectiveness was evaluated by measuring, on conclusion of the test, the % variation of weight (Δp^(L)) and viscosity (Δη^(L)) of the lubricant and the weight variation per unit of surface of the metal alloy sample (Δp^(M)).

                  TABLE I                                                          ______________________________________                                                  Conc.     Δp.sup.L                                                                           Δη.sup.L                                                                   Δp.sup.M                              Stabilizer                                                                              (% b. wg.)                                                                               (%)       (%)   (mg/cm.sup.2)                               ______________________________________                                           --     --        -100      n.d.  --                                          Product 1a                                                                              0,80      -0,9      +5,7  0                                           Product 1b                                                                              0,90      -3,3      -16,1 0                                           Product 2                                                                               0,85      -0,7      +1,8  +0,13                                       Product 3                                                                               0,85      -15,1     -0,2  0                                           ______________________________________                                          n.d.: not determinable.                                                   

We claim:
 1. Lubricating compositions comprising(a) an oil or a grease based on perfluoropolyethers; (b) from 0.05 to 3% by weight of a phosphazene derivative of cyclic or linear structure having the following formula: ##STR17## where: n is 0 in the case of a cyclic structure and n is 1 in the case of a linear structure; m is an integer from 3 to 7; and the A groups, like or different from each other, are selected from the group consisting of:(i) R--Q--, whereQ is a divalent group selected from the group consisting of --O--, --S--, --NH--NH--, and --NR₁ --,where R₁ is hydrogen or a C₁ -C₄ alkyl group; and R is selected from the group consisting of C₆ -C₁₂ aryl groups, and C₆ -C₁₂ aryl groups substituted by one or more groups selected from the group consisting of C₁ -C₄ alkyls, --OR₂, --NR₃ R₄, --NO₂, --F, and --Cl,where R₂, R₃, and R₄ are selected from the group consisting of hydrogen or C₁ -C₄ alkyls; and (ii) R_(f) --CH₂ O(CH₂ CH₂ O)_(s) --, wheres is equal to 0, 1, or 2; and R_(f) is a perfluoropolyethereal chain having a molecular weight ranging from 400 to 10,000 and composed of repeating units selected from the group consisting of:(1) ##STR18## and (CFXO) where X is --F or --CF₃ ; (2) (CF₂ CF₂ O) and (CF₂ O); (3) ##STR19## (CF₂ CF₂ O) and (CFXO), where X is --F or --CF₃ ; (4) ##STR20## (5) (CYZ--CF₂ CF₂ O) , where Y and Z, equal or different to each other, are F, Cl, or H; (6) (CF₂ CF₂ O);the various repeating units being statistically distributed along the chain;such that at least one group of type (i) and at least one group of type (ii) are present in the phosphazene derivative molecule; and such that groups --R--Q, if linked to the same phosphorus atom, are capable of forming a cyclic structure with the following formula: ##STR21##
 2. The lubricating compositions of claim 1, wherein the phosphazene derivative of component (b) is present in an amount ranging from 0.5 to 1% by weight.
 3. The lubricating compositions of claim 2, wherein the perfluoropolyethers of component (a) are selected from the following classes:(1) ##STR22## where: X is --F or --CF₃ ;A and A', like or different from each other, are --CF₃, --C₂ F₅ or C₃ F₇ ; and m and n are numbers such that the viscosity of the product ranges from 10 to 4000 cSt; the various units being statistically distributed along the chain; (2) ##STR23## where: B is --C₂ F₅ or --C₃ F₇ ; andm a number such that the viscosity of the product ranges from 10 to 4000 cSt; (3) ##STR24## where m is a number such that the viscosity of the product ranges from 10 to 4000 cSt; (4) ##STR25## where; X is --F or --CF₃ ;A and A', like or different from each other, are --CF₃, --C₂ F₅ or --C₃ F₇ ; and m, n and q are numbers such that the viscosity of the product ranges from 10 to 4000 cSt; (5) AO--(C₂ F₄ O)_(p) (CF₂ O)_(q) --A', where:A and A', like or different from each other, are --CF₃ or --C₂ F₅ ; and p and q are numbers such that the viscosity of the product ranges from 10 to 4000 cSt; (6) AO--(CF₂ CF₂ CF₂ O)_(m) --A', where:A and A', like or different from each other, are --CF₃, --C₂ F₅ or --C₃ F₇ ; and m is a number such that the viscosity of the product ranges from 10 to 4000 cSt; (7) AO--(CF₂ CF₂ O)_(r) --A', where:A and A', like or different from each other, are --CF₃ or --C₂ F₅ ; and r is such a number that the viscosity of the product ranges from 10 to 4000 cSt; (8) ##STR26## where R'_(f) is a perfluoroalkyl, n is a number ≧8, and R_(f) is --F or a perfluoroalkyl.
 4. The lubricating compositions of claim 1 where, in the phosphazene derivative of component (b), n=0 and the molar ratio of the R_(f) --CH₂ --O(CH₂ CH₂ O)_(s) -- groups to the R--Q-- groups ranges from about 0.2 to 1.8.
 5. The lubricating compositions of claim 4 where, in the phosphazene derivative of component (b), the molar ratio of the R_(f) --CH₂ --O(CH₂ CH₂ O)_(s) -- groups to the R--Q-- groups ranges from about 0.5 to
 1. 6. The lubricating compositions of claim 1 where, in the phosphazene derivative of component (b), m is 3 or
 4. 7. The lubricating compositions of claim 1 where, in the phosphazene derivative of component (b), the R_(f) group has a molecular weight ranging from 400 to 4,000.
 8. The lubricating compositions of claim 1 where, in the phosphazene derivative of component (b), when the A group is R_(f) --CH₂ --O(CH₂ CH₂ O)_(s), the R_(f) group is selected from the following classes:(a) ##STR27## where: T is a fluoroalkyl group selected from the group consisting of --CF₃, --C₂ F₅, --C₃ F₇, --CF₂ Cl, --C₂ F₄ Cl, and --C₃ F₆ Cl;X is --F or --CF₃ ; Z is --F, --Cl or --CF₃ ; and m and n are numbers such that the n/m ratio ranges from 0.01 to 0.5, and the molecular weight ranges from 400 to 10,000; (b) T^(I) --O--(CF₂ CF₂ O)_(p) (CFO)_(q) --CFZ^(I) --, where:T^(I) is a fluoroalkyl group selected from the group consisting of --CF₃, --C₂ F₅, --CF₂ Cl, and --C₂ F₄ Cl; Z^(I) is --F or --Cl; and p and q are numbers such that the q/p ratio ranges from 0.5 to 2 and, the molecular weight ranges from 400 to 10,000; (c) ##STR28## where: T^(II) is a fluoroalkyl group selected from the group consisting of --CF₃, --C₂ F₅, --C₃ F₇, --CF₂ Cl, --C₂ F₄ Cl, and --C₃ F₆ Cl;X^(II) is --F or --CF₃ ; Z^(II) is --F, --Cl, or --CF₃ ; and r, s and t are numbers such that (r+s) ranges from 1 to 50, the t/(r+s) ratio ranges from 0.1 to 0.05, and the molecular weight is from 400 to 10,000; (d) ##STR29## where: T^(III) is --C₂ F₅, or --C₃ F₇ ; andu is a number such that the molecular weight ranges from 400 to 10,000; (e) T^(IV) --O--(CYZ--CF₂ CF₂ O)_(v) --CYZ--CF₂ --, where:Y and Z, equal or different, are F, Cl or H; T^(IV) is selected from the group consisting of --CF₃, --C₂ F₅, and --C₃ F₇ ; and v is a number such that the molecular weight ranges from 400 to 10,000; (f) T^(v) --O--(CF₂ CF₂ O)_(w) --CF₂ --, where:T^(v) is --CF₃, or --C₂ F₅ ; and w is a number such that the molecular weight ranges from 400 to 10,000.
 9. A method of stabilizing oils and greases based on perfluoropolyethers comprising the addition to the oils and greases of a phosphazene derivative of claim
 1. 10. A method of preventing wear of oils and greases based on perfluoropolyethers comprising the addition to the oils and greases of a phosphazene derivative of claim
 1. 